Interaural time difference enhancement strategy

What is claimed is: 1. A method for delivering an electrical stimulation signal by a hearing device having a plurality of electrodes, the method-comprising: receiving a sound signal at the hearing device; filtering the sound signal to obtain a first set of one or more band-pass filtered signals; determining a time instance of an amplitude inflection in the sound signal; and modulating at least one of the band-pass filtered signals with a pre-defined modulation shape at the determined time instance; delivering, via one or more of the plurality of electrodes, a stimulation signal using the modulated at least one band-pass filtered signal and a traveling wave delay. 2. The method of claim 1 , wherein determining the time instance of the amplitude inflection in the sound signal comprises: determining the time instance based on an absolute value of a selected amplitude inflection having an intensity that is greater than a particular percentage of an average intensity of the sound signal over a particular time period. 3. The method of claim 2 , wherein the selected amplitude inflection is indicative of a glottal closure instant. 4. The method of claim 2 , wherein the selected amplitude inflection is indicative of a fundamental frequency of the sound signal. 5. The method of claim 2 , wherein the selected amplitude inflection is indicative of the onset of an utterance. 6. The method of claim 2 , wherein determining a time instance comprises: determining an envelope of the sound signal; and determining the time instance based on a peak of the determined envelope. 7. The method of claim 1 , further comprising: determining an envelope of the at least one band-pass filtered signal; and wherein modulating the at least one band-pass filtered signal at the determined time instance, comprises: multiplying the envelope of the at least one band-pass filtered signal with the pre-defined modulating shape. 8. The method of claim 7 , wherein the pre-defined modulating shape is selected from the set of: a rectified sinusoid, a raised sinusoid, and an exponential decay function. 9. The method of claim 1 , wherein modulating at least one of the band-pass filtered signals at the determined time instance comprises: modulating a plurality of band-pass filtered signals to generate a plurality of modulated band-pass filtered signals; and wherein the method further comprises: selecting a subset of the plurality of modulated band-pass filtered signals; and wherein delivering the stimulation signal using the modulated at least one band-pass filtered signal and a traveling wave delay comprises delivering a stimulation signal for each modulated band-pass filtered signal of the subset. 10. The method of claim 9 , wherein selecting a subset of the plurality of modulated band-pass filtered signals comprises: multiplying at least one of the plurality of modulated band-pass filtered signals by a number specified for a frequency channel corresponding to the at least one of the plurality of modulated band-pass filtered signals to weigh an intensity of the modulated band-pass filtered signal; and selecting a specified number of the plurality of modulated band-pass filtered signals based on the intensity of the weighted band-pass filtered signals. 11. The method of claim 10 , wherein the specified number is based on a time since a previous stimulation was applied on the frequency channel. 12. The method of claim 1 , wherein the hearing device is attached to a first ear of a recipient of the hearing device, and wherein a hearing aid is attached to the second ear of the recipient, and further comprising: wherein the traveling wave delay is determined based on a difference in a time lag between receipt of the sound signal at the first ear and electrical stimulation of the auditory nerve of the first ear by the hearing device and a time lag between receipt of the sound signal at the second ear and stimulation of the auditory nerve of the second ear by the hearing aid. 13. The method of claim 12 , wherein the traveling wave delay is configured to account for a traveling wave delay in the application of acoustic stimulation to the second ear of the recipient. 14. A hearing device comprising: a filter bank configured to obtain a first set of one or more band-pass filtered signals from a received sound signal; a time selector configured to analyze the received sound signal to determine a time instance of an amplitude inflection in the received sound signal; at least one modulator configured to receive an indication of the determined time instance from the time selector and to modulate at least one of the band-pass filtered signals with a pre-defined modulation shape at the determined time instance to generate at least one modulated band-pass filtered signal; and a traveling wave delay configured to cause a delay in application of electrical stimulation in accordance with the at least one modulated band-pass filtered signal; and a plurality of electrodes configured to deliver a stimulation signal generated based on the at least one modulated band-pass filtered signal to a first ear of a recipient of the hearing device. 15. The hearing device of claim 14 , wherein the time selector is configured to determine the time instance of the amplitude inflection in the received sound signal based on an absolute value of a selected amplitude inflection having an intensity that is greater than a particular percentage of an average intensity of the received sound signal over a particular time period. 16. The hearing device of claim 15 , wherein the selected amplitude inflection is indicative of a glottal closure instant. 17. The hearing device of claim 15 , wherein the selected amplitude inflection is indicative of a fundamental frequency of the sound signal. 18. The hearing device of claim 15 , wherein the selected amplitude inflection is indicative of the onset of an utterance. 19. The hearing device of claim 15 , wherein the time selector is configured to determine an envelope of the sound signal and determine the time instance based on a peak of the determined envelope. 20. The hearing device of claim 14 , further comprising: an envelope detector configured to determine an envelope of the at least one band-pass filtered signal; and wherein to modulate at least one of the band-pass filtered signals with the pre-defined modulation shape, the at least one modulator is configured to multiply the envelope of the band-pass filtered signal with the pre-defined modulating shape at the determined time instance. 21. The hearing device of claim 20 , wherein the selected modulation waveform is selected from the set of: a rectified sinusoid, a raised sinusoid, and an exponential decay function. 22. The hearing device of claim 14 , wherein the at least one modulator comprises a bank of modulators each configured to multiply at least one of the one or more band-pass filtered signals by a pre-defined modulation shape at one or more determined time instances to generate a plurality of modulated band-pass filtered signals, the hearing device further comprising: a channel selector configured to select a subset of the plurality of modulated band-pass filtered signals for use in a generating a stimulation signal for delivery to the recipient via the plurality of electrodes. 23. The hearing device of claim 22 , wherein to select the subset of the plurality of modulated band-pass filtered signals, the chann